Automatic welt turner



May 15, 1945. J. D. MoYER AUTOMATIC WELT TURNER Filed March 6, 1942 13 Sheets-Sheet l INVENTOR. JO/vA/ D. No Vfb May 15, 1945.

J. D. MOYER 2,376,267

AUTOMATIC WELT TURNER Filed March 6, 1942 13 Sheets-Sheet 2 INV ENT OR.

Ja/m/ .22 ./)70 we BY A TTORNEY.

J. D. MOYER AUTOMATIC .WELT TURNER May 15,1945.

' 13 Sheets-Sheet s Filed March 6, 1942 INVENTOR. Jab Ar .D. Mos 5e,

TTORNEY.

May 15, 1945. J. D. MOYER V AUTOMATIC WELT TURNER Filed March 6, 1942 13 Sheets-Sheet 4 lit .9.

MW ATTORNEY.

J. D. MOYER May15, 1945.

AUTOMATIC WELT TURNER 13 Sheets-Sheet 6 Filed March 6, 1942 May 15, 1945. J. D. MOYER AUTOMATIC WELT TURNER Filed March 6; 1942 13 Sheets-Sheet '7 INVENTOR Jam/D. n70 $16K;

ATTORNEY May 15, 1945.

J. D. MOYER 2.376.27

AUTOMATIC WELT TURNER Filed March 6, 1942 13 Sheets-Sheet 8 INVENTOR. Jam/D Ma 9 ATTORNEY- May 1945 J. D. MOYER 2,376,267

AUTOMATIC WELT TURNER Filed March 6, 1042 13 Sheets-Sheet 9 INVENT OR. J'0/m/ D. Mas 26 Zz/ MM Filed March 6, 1942 I] 4: 5.9 o Z9 E 27 6'6 4 7 i 29 2.9 30 3o 3/ 3/ Z0 INVENTOR. Job Al .D. memo ATTOR NEY.

13 Sheets-Sheet 10 0 1945- J. D. MOYER 2,376,267

AUTOMATIC WELT TURNER Filed March 6, 1942 15 Sheets-Sheet l1 IN VE N ro R. Jam/.0. ma #545- ATTORNEY.

y 1945- D. MOYER 2,376,267

AUTOMATIC'WELT TURNER Filed March 6, 1942 13 Sheets-Sheet l2 ,Efil 33; EE' 4:

- INVENTOR. JO/f/VD. MOS [R Jag/ .39. l BY golmw.

ATTORNEY. v

May 15, 1945. 'J. D. MOYER AUTOMATIC WELT TURNER Filed March 6, 1942 13 Shets-Sheet ,13

, INVENTOR. I Joy/v.0. MOVE/Q BY n \(i wu uguiz HTTOE/VZV Patented May 15, 1945 AUTOMATIC WELT TURNER John D. Moyer, Milwaukee, Wis., assignor to Holeproof Hosiery (30., Milwaukee, Wis., a corporation of Wisconsin ApplicationMarch 6, 1942, Serial No. 433,532

The present invention relates to automatic mechanism. for turning and closing the welt of a fabric knit ona flat type machine having narrowing and other operation performing mechanism.

, One of the objects of the invention is to provide automtaic mechanism for turning and closing a welt operating under the control of a pattern chain. i

Another object of the invention is to provide mechanism for maintaining the proper tension on the fabric being knit which will permit the starting of a new set before clearing olT the completed fabric of the preceding set, thus saving operation time. t 6

Another object of the invention is to provide a mechanism in which the welt bar take-up may continuously apply proper tension to the fabric during the knitting thereof, and thereby knit weltless fabric or hosiery without waste of material or extra operations. l

Another object of the invention is to provide a mechanism for automatically turning and closing a welt smaller than heretofore possible.

Another'object of the invention is to provide mechanism for placing a series of weltl wires into position simultaneously to save operation time.

Another :object of the invention is to provide.

mechainsm for simultaneously engaging thread ends and holding them out of the way of the welt bars.

Another object of the invention is to automatically turn and close a welt which is identical in appearance and construction with welts heretofore turned by hand. a

Another object of the invention is to provide a welt-turning mechainsm adapted for use in a full-fashioned knitting machine having narrowing and other operation performing mechainsm which is readily incorporated therein without re- 24 Claims.

of the machine. 26

quiring structural alterations in said machine or Y interfering with the mode of performingpicot, graduated reinforcing, and narrowing operations. A still further object of the invention is to provide a. welt-turning mechanism which is. synchronized with and utilizes some of theelements used in performing the standard narrowing operation l i The knitting machine herein disclosed, as embodying in a preferredform the features of the chain adapted to automatically control the desired sequence of the operations of the knitting machine in its performance of the foregoing operations. Each of the sections includes a series of collectively operated spring beard needles which are given a vertical reciprocatory move ment to pull down new loops and lateral reciprocatory movements toward and away from fixed pressing surfaces to close the needle beards and cast ofi the old loops, and a series of independently movable sinkers which are, actuated to a position to kink a new yarn about the needle shanks.

The standard parts of the knitting machinev will not be described. They are incompletely shown in some instances in the drawings in order to aid in understanding the manner in whichthe improvement constituting the present invention is incorporated in the machine without requiring any structural alteration of the standard machine.

The mechanism for turning the welts comprises a multiplicity ofwelt bars, one for each section Each welt bar has a series of welt hooks corresponding in number and in position to the needles in a section. Each section has a pair of flat guides carried by the main table of the knitting machine. The welt bars rest on and ride along the flat guides. At the knitting stations (place where needles operate) of. each section, there is positioned adjacent the fiat guides 21 pair of welt bar turning anddipping guides. Each pair of the turning and dipping guides is mounted on a common shaft so that they all are swung in unison from a single operating arm. The turning and dipping guides are adapted to engage with the ends of the welt bars and aid in turning them and in causing them to dip into loop transferring position.

' In starting the set, the welt bars are advanced so that the welt hooks extend between the needles, and the sinker loops of the first course are engaged by the welt hooks. During subsequent knitting, the welt bars are retracted from the knitting stations carrying the fabric with them and maintaining proper tension. At a predetermined time welt wires (one for each section) are simultaneously laid on top .of the knitted fabric and are engaged by welt wire carriers. This operation is manually controlled. Thereafter the welt bars are automatically "moved forwardly to an intermediate locked position, and the welt wire carrierabeing urged awayfrom the knitting station under the proper. tension, then take over thetake-up duty of the welt bars and the fab ric is withdrawn underthe welt bars. At the point in the knitting when it has beendetermined to turn the welt, the welt bars are automatically moved forwardly. At the same time the turning and dipping guides are raised. The welt bars move into the turning and dipping guides and are turned so that the Welt hooks are pointed substantially downwardly toward the rearof the needles. At this point the welt bars are automatically shifted laterally the spacing of a half needle so that each hook is positioned over a respectively alined needle. They are then dipped down to the needles and are synchronized with the needle and sinker action .as it occurs during a standard narrowing motion cycle. .Thus, the loops of the first course of the welt, while still on the welt hooks, are placed over the hooks and beards of the needles. As the welt bars are automatically raised, they are also automatically shifted laterally one-half needle'position so that the narrowed ends of the welthooks are again positioned between the'needl'es. Thereafter as an ordinary course is laid, the last course loops, still on theneedles, and the first course loops, 'J'ust placed on the needles, are knitted in with the new course. The welt bar, being still hooked to the fabric, controls the tension thereon. This characteristic is important in that it is oneof the elements which contributes to the turning of a small welt; i. e. the use of Welt wires may be omittedwh ich fact of itself permitsthe welt to be smaller. After knittingsome regular courses, the tension is transferred to the welt wire takeup and the operator manually unhooks the welt b r i In a full-fashioned machine of the type herein disclosed, the cams for controlling the welt turning 'op'eration'heretofore briefly described are positioned on the main cam shaft of the machine and are synchronized and timed with the customary cams on that shaft which control the knittingoperation. Additional pattern buttons are placed on the patternchain to'pperate additional'l'evers which control the shifting of rollers into operative engagement with these newly provided-cams so that the operation 'is substantially "automatic. The cams, the roller arms through which their motion is effectively translated to the 'welt'bar, and the welt bar guiding mechanismare so incorporated in'the standard machine that there needbe no change in the contaking-place for utilization in performing'the welt-turning operation One'of thecharacteristics of this invention is that take-up tension is exerted through "welt wires separately andindependently from th'econventional take -up tension exerted through welt bars. The welt wires travel on .a path below that of the. path of travel of the welt bar, :and the knitted fabric is wound on a take-uproller which is also-below that-path of travel. Thus, the operator 'may immediately start ainew set on the machine before clearing ofi .the'completed febrlc from each section. Thread hooks positioned at each side of a section, below said path of travel, simultaneously engage and hold the thread ends out of the way of the welt bars of each section. There will be sufficient time after the new set has started to clear off the completed fabric while the machine is in operation. This effects an additional saving of time and speeds up the production of the machine.

Another characteristic of this invention is the inclusion of a welt bar roller housing. By means of this, tension may be continuously applied by the welt bar which will be received within the roller housing so that fabric may be wound about both housing and bar. When weltless fabric or small welt fabric is being knit, the use of welt wires and welt wire take-up is omitted.

The novel'features, which are considered characteristic of the invention, are set forth with cotton system full-fashioned machine embodying'the automatic welt-turning mechanism;

Figure 2 'is a perspective, partially diagram matic, "View of the pattern chain, control buttons, and motivating levers for controlling the sequence of the operations of the welt-turning mechanism; I g

Figure 3 'is a perspective view of "that section of the main cam shaft which has thereon the cams for positioning and turning the welt "bar, and of-the roller arms, shifting rods,"'levers,-and shafts by which the cams-and rollers are brought into operative relationship; i

Figure 4 is 'a perspective view, of that section of the'main'cam shaft which has Tocat'edthereon the raising cam, and the raising cam bit, and of the roller arms, rod, and shifting 'forkby which the rollers and cams are brought into "operative relation; a Figure 4a is an enlarged perspective view," of the-extension of the connecting rod shown in Figure 4, "of the crank lever which operates the turning and dipping guide shaft, and of a welt bar turning and'dippingguide;

Figure "5 is a perspective view, of that section of *the main cam shaft on which is "positioned the weltwire tension control cam, of the roller "arm, "shifter fork, and rack bar for rotating'the welt wire take-up shaft;

Figure-'6 is "a perspective view, of that section of the main cam shaft on "which is positioned the halfnee'dle-s'hift cam, and "of the roller-arm and connecting rod 'for'shi'ftin the welti-bar a half needle;

Figure fia is an enlarged perspective-"view, of the-connecting rod'of Figure 6, the crank lever, and the micrometer cam for axially-shifting the turnlngand dipp'ing guide shaft; 1

Figure 7 -isa perspective view, looking downwardly toward the fourth section of the knitting machine of Figure '1, 0f the welt bar withits welt hooks advanced :to "the knitting station, the welt bar flat guides, the welt :bar positioning drums and their respective connectedshafts, .the welt 'wire "carriers and take-up shaft and. i'takeup roller mounted 1 thereon, and of 1thezrack :bar disclosedin Figured;

latched position;

*Figure ihisa perspective view' of the first section or the machine shown in Figure 1 including the rack bar ofFigure 5, the pinion for operatiiig' the welt wire 1 take-up shaft and take-up roller,"the welt bar positioning'shaft; and welt barhousing mounted thereon; l

Figure 9 is; a perspective view of the rear of the" machine taken at about the fourth section of th'e machine as shown in Figure 1, including the operating shafts, "levers, androds for operating the shitting forks controlling the positioningofthe rollers onRthe roller arms viewed in Figure 10'is a perspective, fragmentary; enlarged view of Bone of the turningand dipping guides for the welt bar withthe guide in raised position toreceive the welt bar; l l

Figure 11 is a perspective, fragmentary, en-

larged view of one-of the turning and dipping guides viewed in Figure 10, with the welt bar advanced into the guide and turned against the flanges on the end thereof to the position assumed before dipping; it

Figure 12 is a diagrammatic view of thewelt bar and the positioning cam aspositioned at the start oft-he set;- t t -'-Figure 13 is a diagrammatic view ofzthe welt bar-latch and the positioning cam after three: quarters of the starting-of-thesset cycle has been completed; q 1 l in Figurel l is an enlarged fragmentary view, part in side elevation and part in-section, of the welt bar positioning latch mechanism; t l I Figure 15 is :an; enlarged, fragmentary, dia- 'grammatic view in side elevation of the welt bar this, point the roller is moved out of engagement Withlth cam; l y a i i y in n 1 Figure i'llis a, diagrammatic view-oi the welt barfafter a picot has been performed, and of the welt wire placer when in its lowered position for engaging the welt wires with the welt wire hooks;

-1'; Figure l'lais .anenlarged fragmentary view in *side elevation of the welt wire placer;

l Figure 18 is a diagrammatic view of the welt ,bar; and welt wire when: the welt wire has been inserted in the welt wire take-up; I i Figure 19 is an enlarged fragmentary view in side elevation of the tensioning drum mechanism for the welt bar l v Figure 20 is a diagrammatic view of the welt bar, weltwiraand tensioning drum mechanism for the welt wire take-up shaft stationed at a point in the re-positioning of the welt bar to Figure 21 is a diagrammatic view of the welt barand welt wire ashpositioned sometime after the completion of the latch position operation (from this latched position: the welt-turning operation is started) Withfltl'lS -OIIEILOW being maintained on the fabricthroughtheoperation bar and turningcam as positioned atthe completion oftheWelt-turningcycle; I i

Figure 25 is a perspective View of one section of'the knitting machine illustrating the manner in which the welt bar maintains the tension on the fabric after the welt has been turned ,and knittedin; l l I Figure 26 is-a perspective view of the section shown in Figure 25 with the welt bar removed and positioned in the welt bar housingfiand with the welt wire: tensioning device; A

Fi-giures27 to 32, inclusive, are diagrammatic views of the welt bar, welthooks, needles, sinkers, and knock over bits, during certain sequences of the turning and knitting in of the welt; in Figure 27 the relative position of these parts is shown tension on the fabric being maintained by the i just prior to the dipping of the welt bar; in Fig-- .the welt hooks and the sinkers advanced inbetween the welt hooks over the welt loop thereon;

in Figure 30 thelrelative position of these parts is shown as the sinkers have forced the welt 100p downon the eye of the welt hook and over the eye of the needle; in Figurebl the relative position of these parts is shown just after the welt hooks have been shifted sidewise a half a needle so-as to lie between the needles and the welt loop position over the eye of the needle and stillon the hook of the welthook with the Welt bar in a partially lowered position; and in Figure 32 the relativeposition of these parts is shown at completion of the lowering of the welt bar; with v the" welt loop still held in the hook of the welt hooks, the welt loops over the eyeof the needles,

and thelast course of loops in the eyes of the needles. From this position regular knitting canbe commenced and the sinker loops of the new course willbe drawn through both the-last course loops and the welt loops; l l l Figures 33 to 39, inclusive, are diagrammatic views of the various cams and the respective rollers operated by them. The cams are shown as viewed from the right in thevarious figures with the shaft and each cam positioned just beyond Figure 33 shows the turning cam, also shown in tion of the latch for the welt 'wire tensioning -'-Figure 24 isa diagrammatic view of the welt short welts orwhich may the cam bit attached to the cam shown in Figure 35; Figure 36*shows the tension cam, also shown in Figure 5; FigureB'? shows the half needle cam,

also shown in Figure 6; Figure 38 shows a special small welt turning cam to be substituted for the turning cam shown in Figure33 when it is desired to turn short welts; Figure 39 shows a special catch bar cam which is substituted for the catch bar cam narrowing side during the turning of be added adjacent the catch bar cam; i

Figure 40 is an enlarged view in side elevation of a welt hook; v

Figure 41 is an enlarged cross sectional view taken onthe line 4 [-41 ofFigu're 4o;

'Figuref lz is an enlarged cross sectional view takenon the linen-42 of Figure 40; and

Figures 43 $0150; inclusive, -are diagrammatic views of the welt sbar, welthooks,.-needles, sinkers and knock-over bits, during certain sequences of the turning of azshort welt preparatory rte-knitting in; in Figure'dli, the-relative ,position of rthese ,parts is shown after to 16 coursesih-ave been knitted; in Figure 44, the relative position of-these parts is shown after the sinkers and'dividers have beenadvanced to the turning position; in Figure '45,, the relative position of these parts is shown after the welt bar has :been :raisediand before it has been dipped, the knit-ted vZfabric being held by the noses of'the sinkers and dividers-so as to prevent it from getting between :the needles and. the welt hooks; in Figure 4c, \the relative position of these parts issho-wn after the sinkers and dividers have been withdrawn and the welt bar has been dipped, to carry the first course loops-up to the humps in the welt hooks and to bring the beards of the needles into alignment with theigrooves on the welt hooks; in lEignre4-7, the relative position of these parts is shown'af ter the sinkersand dividers have advanced, and the needles have been pressed against and into the grooves of the welt hooks; in Figure 48, the rela- :tive position of these parts is shown -as the we1t bar is raised and the sinkers have forced thefirst course'loops down the welt hooks and on 110231111 over the eyes of the needles; in .Eigure 49, the relative position of these parts :is' shown as the welt bar is being lowered and :shifted sidewise a half needle; thesfirst course loops are now in the hook portions of :the welt hooks and are also held over the eyes :of the needles by the vsinkers and divide-rs; and in :Figure 50, therelative ,position of these :parts, is shown at the completion of :the lowering :of the'welt bar with the first course loops still held in the .hOOkS of the welt hooks and over the eyes of the needlesandwthe loopsof the course (last knitted held only in the eyes (under vthe beards) of the needles; from this position regular knitting :is commenced, :and the sinker loops of the next laid course will be :drawn through both the last course loops and the first course loops.

' Referring now to the drawings, the machine comprises :a frame -I, which provides a support forthe table 2. The frame l :alsosupports la main cam shaft %3, which carries-the cams for controls ling the specific motions hereinafter described. In addition, this frame I provides a support for the welt bar *take-up shaft 20 and "its associated wind-up shaft 21, the welt wire 'take-zup'rshaft :50, the welt [bar '22, and the control shaft 23 for the turning "and dipping guides. illhe welt :bar atake-up shaft 20 and the wind-up shaft 21 :are connected :togetherby :a sprocket and roller ichalin :assembly ilso as to have a .one-to-one ratio. The welt bar take-up shaft ill-ha a tensioning drum 24 located thereon which has a latching mechanism 25 which pennitsithe operator 1130 place tension on the shaft by winding some of the cable onthe drum-(see Figure i9) The welt wire take-up shaft also has a tensioning Y drum 51 positioned adjacent the last section. This drum l5l operates in like manner as the welt bar drum 2 4, and tension may be placed on the'shaft '50 at the will of the-operator =(seeEigures land 20). The needles 5, sinkers and dividers 6,-and knock-over bits 1 are held and operated in the trolled .by various cams located :on the .main cam shaft 3. Operation of the motor'for startingandstopping the machine is controlled by :the starting bar -.8, which .is positioned vat the Sfront of the-machineand is extensive of-all sectionsiof the -,machine.,so ias 'tobe operable by the :operator atany point. i

,As each section tor the machine has -exam; du-

;plicate parts, the description will :be confinedtto one section. It is to :be understood that the var- '-ious exact duplicate vparts are operated Jointly from single shafts extending through all sections. As hereinafter used, clockwise and countenclockwise will he as viewed from the Irontor .theright as the casermay be;

As'is show-n inrFigure 7,, the welt bar 32 has the lower portion of its ends recessed to provideslots iknitting tation :on the hat guides 12-! is con-- customary manner, their operation .being controlled by spring belts 29. One end'jof each belt $19 is fastened to a respective forward orreariside :of the ends of the welt bar '22 by imeansgof iconnecting tongues 30 pivotally carried in :slots doomed in the welt' bar 22. .One pair of spring belts 329 extends irearwardl-y :from the welt bar M itoidrums b3] secured'to the welt bar shaftsfll. The other pair of spring belts 29 extendiorwardly lfrom the'welt'zbar 22150 cone-shaped drums-132 positioned on the wind-up shaft 2t. Theseibelts pass over guiding moliersi33 held on studs 54 fastened to each turning and dipping, guide $28 (see Figures 10 :and 11 .as the weltshar 'takeup shaft 20 and wind-'upxshaft I are mo- =tated in clockwise direction, the cone-shaped drums 32 will wind up the spring belts 129 iasfthey are unwound "from the drums Bil land the melt bar 22 will be moved toward the knitting station. -Counterclockiwise rotation -of the shafts will move the =weltbar -22 :away from the lknitting station.

Positioned on the welt wire shaft iu is a'spair'iof spools 5L In alinement withthe spools 521there is rot'atively carried on the turning and dilflpin guide s'ha'f-t 23 a pair-of guiding rollers 53. Alike pair o'f guiding rollers 54 is oarried :on theishait 55 immediately below the shaft 23 (see li-igure 24). An endless spring belt 56 is wound :around each spool '52 and extends around the respectivel-y ali-ned rollers =53 and 54. Positioned on I each endless spring =be1t -58 is a welt wire engaging 'hoo'k 51. The engaging hooks 5 1 are positioned so that a lineextending between them will always move in parallel relation to the axis of the wlt wire take-up -shaft 5ll, Asthe welt wire 'take up welt bar 22 will be moved toward the knitting station. Welt wire tensioning drum 5| when manually wound by the operator tends Ito rotate The opening to the housing :35 isimaintained in the position shown in Eig-ure 8 by reason of a,

, weighted portion 31 opposite the housing \open- .ing A take-up roller 58 is fixed'to welt wire takeup shaft 50 and rotatesas the welt wireengaging hooks are moved. v

The welt hooks 36 have a special shape as shown in Figures 40 to42, inclusive. At one end is a shank 36a which is. adapted to be engaged inthe welt bar 22 in the customary manner. At

the other end is the usual hook 36b which holds the first course loops. Intermediate their ends is formedon the top a hump 360 which engages the first course loops during the welt turning action to prevent them fi'omfsliding up onto the shank and to keep them below the sinkers 6. Immediately to the left of .hump 3ficthelsides of the hooks are depressed at 36d. This provides additional clearance space between adjacent hooks.

so that a respective sinker or divider B may be easily inserted between adjacent hooks.

The

bottom of the'hook to; the right of the hump 36c is-provided with a groove 36c which receives the heard of a needle during the welt turning ac- .4

mechanism of standard design to turn the welt bar shaft 2|] in the same direction. However,-

upon movement, of the pinion 38 in counterclockwise direction it will move freely and not cause movement of the welt bar shaft 20. Rotation of the pinion 38 is .controlledby the vertical reciprocatory-movernent of a rack bar39 held in engagement with the pinion 38 by a roller guide 49 positioned on a stud shaft 4| secured by a bracket 42 to the frame I of the machine. 1 The 5" vertical reciprocatory movement of this rack bar 39 will belhereinafter described.

In order to control the positioning of the Walt bar 22 with respect to'the knitting station, there is placed onwelt bar shaft 20 a collar 43 havin'g formed thereonan abutment M. The rota-.

means of a stud shaft. 45 is a welt bar latch 46 (see Figure 14 fordetails) havingan engaging tooth 48. The latch lfi is provided with a spring positioning device 49- which holds it spring biased in. openpositionisee Figures '7 and 13) or spring biased in closed position (see Figure 14). Carriedon the latch d6 by two screws is a slotted extension bar having a small operating han die. The bar 41 when moved to an extended position is engaged by the rack .bar39 asthat position as shown in Figure 12, and held in this position. by the action of the latch 46; From this position the weltbar may beinoved a positively determineddi'stance" by the'action of the positioning cam hereinafter described. It is to be understood that in the latched position the welt 'ba'r tensioning device 24"(see Figure 19) will be inoperative 'to move the welt the -knitting station.

zzThe-turning and clipping guides 28 areshown in detail in'Figures 10 and ll. They are fixedly bar 22 away from accurately positioned in an intermediate latched mounted on the turning andv dipping guide shaft 23 and pivot about itsaxis in unison. Each guide of a pair for a section is positionedadjacent a flat guide 2'1, and operates within the space formed by the narrowed end of those guides. The turning and dipping guides 28-are identical inconstruction with each other, except one is right hand andthe other is left hand. The guides 28 have a portion .H which is clamped to the turningand dipping guide shaft 23, and an extension portion 12 which has ataperedentrance 13. In the lowered position the extension portion 12 is substantiallycparallel with thedflat guides 21.

The tapered entrance 13 engages the ends of the welt bar as it moves into theguides 28. and positions those ends against the inner surface of the extension portion 12 to guide the welt bar 22 in proper relationto the needles 5 as it approaches theknitting station. Theendsof theextension is turned. As is shown in Figure 4a, the upper portion 72 is seciired to the lower portion 11' by lock bolts carriedin H and adjiistably slidable in a slot formed in portion 12. This permits the individual adjustment of the guides 28 toward and from the knittingstation; The guides 28 may also be adjusted angularly with respect to the shaft 23. The turning of the welt bar 22in the guides 281s effected by rotating the weltbar shaft 20in clockwise direction. This moves the welt bar toward theknitting station where it starts to ride over rollers 33. A tension is also created in the spring beltslfibetween the welt bar 22 and the cone-shaped drums 32 which tips the welt bar'zz over the rollers 33. The rollers 33 are so positioned withrespect to the L-shapedbracket 14 that as the bar 22 is tipped over the rollers 33 it engages the brackets", and is held as heretofore set forth. The tipping occurs when the ciprocatory rotary movementthereto. This isaccomplished through the. crank lever 15 shown in The crank lever 15 is operated. through a'connecting rod. 16, as willbe herein Figure 4a.

after described. I b b The turning and. dipping guides 28 also carry thread hooks 34a shown in Figures 7, l0, and .11.

The thread hooks 34a are held in holes provided in stud shafts 34 by setscrews or. other means.

As so carried, they areinfapproximate alinement i with the thread carriers} when such carriers are moved to the side. ofa respectivesection, such as is the case when thecoinpleted fabric is cleared off. Each hookzf la is bent inwardly (with respect to a section) and downwardly. the

guides-28 are raised, the back or top of hooks will brush the thread ends extending f'romthe carriers inwardly (with respect toasection) until they clearthe ends of the"hooks.= Thenas the guides 28 are. lowered, thehooks 3M, will. engage the thread Sends and carry them downwardly belowthe' path of travel of thewelt bar.

This enables the next'set to be started without any manual clippingoftth'e threads used in the previouslycompleted fabric. As hereinafter; de-

lever 85-.

scribed; all the guides 28 are simultaneously raised-i and.lowered by the action of a cam bit carried by the raising and lowering cam;

The welt" wire placer, shown in an enlarged sectional view in- Fi'gure 1 7a, comprises aholding rodfil extending the lengthof the machine. Rod 6-I- is held in arms 62 which are pivoted to stub shafts 53 held in bearings 64- onthe frame I' of the machine. For'eachsection there is secured to the holding rod 6 I-' apair of welt wire holders B5. The welt wire holders 65 comprise a base 66, split and clamped to the rod BI; and a snap-acting jaw-6 1.- The base 66 permits the holders-65 to be adjusted so that when the arms 62 are lowered" to welt wire placing-position, the jaws 6 1 will be properly placed with respect to. the fabric (see Figure 17) The snap-acting jaw 61 is formed of two teeth urged together by a small encircling spring which is of sufiicient tensionto permit the easy: insertion and withdrawal of the Q 'welt'wire" 59 from the; jaw 61. To. maintain the holding bar in, raised: outr-of-the-wayposition there: is provided. a holding lever 68: which is pivoted? to the frame? of: the machine; and: has a notch. fifirwhichyengageswith the holding rod-i 6i.

To; place the welt. wires: & on the fabric and engagegthem. intheflwelt wire engaging hooks 5-1 as is shown: in. Figure 17,. the lever 68: is swung from. the position, shown in" Figure 174a to that shownin-Figure 1.7. The holding rod. 6.1. or one of the armsi 62; may then beswung. to: the: positionshown'in Figure: 17 Thereafter the-.endsl of the welt wires 59:- may; be-interlocked. with the weltewire-engaging hooks-51ml rotating the welt wire: take -up. shaftill: in. a. counter-clockwise direction, forcing; the hooks 51 outwardly and onto. the Welt wires- 59. Thereafter the welt wire holders 6.5 may beswung upwardly andJatched in their out-of-the-way position, as; shown in Figue: l

The control. of the sequences. of. the automatic operations. is, obtained. by. the. use: of operating levers. operatedby. control buttons. placedron. the pattern chainllll; The pattern. chain 811 is of standard. construction (seev Figure 2).v The Thereare shown for purposes ofiillustrationthe loose courselever 8.1IL', the graduated reinforcing lever 82, andthe first slow speed lever 83'. In additio-nto these levers there have been added a welt-positioning lever 84"}; a turning and; raising lever 85; and. an additional second slow speed 7 These levers (except lever. 8]) are mounted on a common shaft 81. Each has a finger which is adapted to engage the control buttons carried on the 'linksof the patternv chain 802 Aslthe chain advances, and" the rounded surface ofa button is forced under the fingerv of a respective' lever, that lever is given a clockwise motion as Viewed in Figure 2: T'Ilere are illus'- trated in Figure 2* two-'- sets of control buttons. The. right. hand group shows the number'of buttonsand their re'l'ativo. positioning for controlling the starting: of theset'. The left" hand group shows; thenumber relative. positions of: the buttons; for: controlling the turning: of' the welt. Itz'is-to be understood'thatt there aremany other" combinations off buttons: in addition. to those disclosed: for performing? the? picotingz. narrrowing; graduated. reinforcing; and: similar openacross? ations The first and second slow speedlevers 83 and 86 have extensions 88 and 89',- respectively, which lie beneath the switch handles of the: first and'second slowspeed switches 90v and SI. As the-levers 83 and 8'6 are" moved in clockwise: dimotion the extensions88': and 89 are raised? and move the switches 90 andilllinto the respective slow speed positions. The positioning lever 84 and turning. and. rising: lever 85 are maintained in: neutral position by springs: $12 and93i, respectively. The positioning lever'84 has a connecting rod; 9:4 whichextends along the front. of: the ma,-

chine to the lever I IDIl shown; l-I'li Figure 3. The

turning and raising" lever 8.5 has a. connecting rod 95 which extends along the front: of, the machine and is secured to the lever: I'5llrshownin Figure 3.

It was previously stated thatvertical reciprocae I tory movement of therack bar 39 controlled the positioning; of thewelt bar 222' (see Figure 7) This vertical reciproca-tory motion is attained. by the useiof camspositioned on the main cam shaft 3-. These camsare shown in Figure 3; Cam IllI (see Figure 34) isihereinafter. termed positioning cam because under its control the; reciprocatory rack 39' israised only asufficient distance to move the welt bar 22- to the position shown in Figures 7. and 1.3 for the purpose of starting. the. set. Cam

I5I (see Figure 33) will. be hereinafter termed the turninlcam as under its control the rack bar 39. is reciprocatedto. agreater distance to move and. turn. the weltvbar .22. into the. welt turning position, as shown in Figures 11. and 22. The reciprocat'ory action of the. rack. 39. is accomplished by moving the pivotedroller arm. I52 aboutits pivot point. Arm I52, aswellas-a similarly shaped roller arm I'El2',.is pivoted ina bracket I113 secured tothe'f'rame I of the machine. The roller arm I 52jhas. at itsforward, end (Figure 3) a slot I53. Fitted inthe slot I53 is a stud shaft IS I'which is secured by a nut and. Washer I55. This stud shaft. I'54Imay be adjusted'vert'ically in the. slot I53 by an upper and lowerset, screw.

Whenv adjusted, the stud. shaft I54 is tightly. se-

cured in position by'tightening up onthe nut I55. The. ratchet: is secured. to .a block I56. which is pivotally positioned on the reduced end portion of the shaft I 54 and held thereon by a collar. I 51. The rollerarm IE2 has at its forward" end a lateralextension IIllI which underlies the roller arm I52; In this extension I04 there is placedia set screw IE5, the adjustment of which raises'the roller arm I52 with respect to, rollerarm IIIZ. Roller-arm surnames a laterally projecting shaft 36* on which is loosely mounted a cam-engaging roller III'I and-a shiftin disk' ID'B." The cam-en'- gaging roller IIII' is shifted to the right into alinement with the positioningcam IIII. Roller arm I 52 also carries a similar shaft, shifting disk and Y cam-engaging roller I58. Roller I58 is shifted to the left'to aline with turning cam I5I. In order to effect the" shifting of the rollers into their cam-engaging positions, there are provided two Shifter fork roundis'tud' II'Il projecting laterally from rolle-r' arm ms; The rear of shifter fork III! is sl'ottecl tmengagewith a finger III (seeFigures 3" and The shifter: fork" I59 for roller I58 is not completely. shownzbut is a. duplicate ofthe shifter fork I109 for roller Hi1" and? is mounted in the same mannerand is likewise operated by'finger I so. The finger: IfII isad'justably carried: on. rod H2 and the finger I60 is ad-justab ly' carried on rod: I BI These rods; are-.held one: above-thee other on. the rear: of themachine bya pair ofi spaced brackets II3 extending from the frame I (see Figure 9). Lever I (see Figure 3) and lever H4 (see Figure 9) are each mounted on a. shaft II5 passing through the machine from front' to rear and held on the frame by bearings I16 formed in bracketsIII; Lever I50, as shown in Figure 3, and lever I62, as shown in Figure 9, are mounted on a shaft I63 likewise extending from the front tothe rear of the machine and held in bearings I64 in the same bracket III. It should be noted that lever II4 extends upwardly arid lever I62 extends downwardly (see Figure 9). Upwardly extending lever H4 has pivoted thereto an adjustable socket IIIa into which rod I12 is adjustably secured. Downwardly extending lever I62 has a similar socket I65 into which the end of rod I66 is secured.

This latter rod I66 extends from the position shown in Figure 9 along the back of the machine to the right hand end thereof, as viewed in Figure 1, where it engages with shifting fork 300 to be hereinafter described. The rod I6! is bent so as to connect with rod I66 through an adjustable connecting block I61. Thus as downwardly extending lever I62 operates, these rods I6lI66) are operated in unison. Each of the roller arms have their forward ends urged downwardly by the reaction of respective springs S extending between the rearward end of the arms and the frame of the machine. (see Figure 9). that positioning cam IN is in theposition shown in Figure 12, an adjustable set screw H8, positioned in a bracket II9 secured to the frame I of the machine, engages with the laterally extending finger I04 on roller arm I02. justment permits roller I01. tobe held slightly above the positioning cam IM and thus its lateral shifting into alinement therewith will be readily'accomplished. By adjusting screw I05 in the laterally extending finger I04, the roller arm I52 may belikewise adjusted so that roller I58 similarly clears the turning cam I5I. As lever 84 is moved to the right under the influence of the control button I the shaft II5 will be turned in a counter-clockwise direction,

as viewed in Figure 3. This in turn shifts lever H4 in the rear of themachineto-the right (as viewed in Figure 9), causing the rod H2 and finger III to shift the slotted end of the shifter fork I09 to the right, which in turn moves shifting disk I08 and roller I0'I to the right (as viewed in Figure 3) and into alinement with positioning cam IOI. As button I20 is shifted from beneath the finger of the shifting lever 84,

the reverse motions will take place and the roller I0'I will be shifted out of cam engaging position. The shifting as controlled bythe pattern chain 80 takes place substantially when the cam is positioned as shown in Figures 12, 16,. and34.

When turn control button I68 engages with the finger of shifting lever 85, rod 95 is shifted to the right, causing lever Ito shiftto the right and force shaft I63 in a counter-clockwise direction (as viewed in Figure 3). This moves the downwardlydepending lever I62 to the left as viewed in Figure 9). This, in turn, moves rod I66, connecting block, I61, rod I6I, and finger I to the left, pivoting the shifter fork I58 and shifting the roller I58 to the left (as viewed in Figure 3) the thickness of one cam. The roller I58 will merely move toa standard fabric -release cam I69. 7 during the narrowing operationswhen the tension is applied to the fabric through the welt This cam releases fabric tension When the main cam shaft 3 is turned so i This adbar.

right a distance of the thickness of one cam,

and this slides turning cam I5I into alinement' with roller I58. This shifting takes place when the cam is positioned as shown in Figures 24 and i At the same time that rod I6I is shifting roller I58, rod I66 will also be pivoting the shifterfork 300 (see Figure 5). At the same time, the shifting of lever I50 to the right (see Figure 3) also shifts connecting rod 200 to the right. Rod 200 is also shown in Figure 4 where there is disclosed theraising cam 20I (see Figure 35). The raising cam 20I is positioned on the main cam shaft 3 in the customary manner. Raisingcam 20I also has adjustably secured theretoa cam bit 2 II (seeFigure 35a). Positioned on the frame I is a stud shaft 202. Pivoted on the stud'shaft202 is The , cam-engaging roller 206 which may be slid axially by the movement of shifting disk 201, and a cam bit roller 2 I0 which may be slid axially by a shiftin fork2l2. The movement of shifting disk 20'! is controlled by shifting fork'208 pivotally mounted on a flat top stud shaft 200 also se-' cured to the roller arm 203. Shifting fork 2I2 is also pivotally mounted on shaft 209. 0 Thus, as rod 200, which is secured to shifter fork 208, is moved to the right, the forward end of shifting fork 208 will be'moved'to the right and the jaws of the shifting fork 208 will move the disk 201 and with it the cam-engaging roller 206 to the left. Thismoves the cam-engaging roller 206 into position to be in alinement with the raising cam 20I when that cam is moved to the right the thickness of one cam under the narrowing action. There is an adjustable set screw (not shown) mounted'on an extension (not shown) of the frame I to limit the downward movement of the inner end of the rollerarm 203 in substantially the same manner as that heretofore described with respect to'roller arm I02 shown in Figure 3.

, By this adjustment roller 206 is maintained in a arm 203 partly down, and from this position move it through an up and down dip synchronized with the needle, motion during the narrowing cycle,

and finallyjat the completionof the cycle, lower the roller arm 203 to its fully down position.

This motion of the roller arm 203 is-transmitted' through the stud shaft 204 to the connecting rod T5. This rod'16 in turn imparts the movement to the crank lever 15 fastened to the shaft '23. The reciprocal movement imparted to the roller arm 203 causes the turning and dipping guides 28 to raise up to the position shown in Figures 10 and 11. The movement of the'roller arm. 203'then causesthe welt bar22 to dip fully down, as shown in Figure 28. When the welt bar 22 is fully down However, at this same time the narrowing mechanism shifts the main cam shaft 3 to the 

